Code-controlled apparatus



Sept. ll, 1945.. A c. wxN'rER -GONTROLLED APPARATUS l com:

4` sheets-sheet 1 Filed Dec. 28, 194:5l

INVENTOR ANH P CWM/TEE ATT RN EYs 4 Sheets-Sheet 2 OQ-j- A cj WINTER CODE-CONTROLLED APPARATUS Filed Dec. 28, 1943 Sept. l1, 1945.

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Sept. ll, 1945. A. c. WINTER CODECONTROLLD APPARATUS Filed Dec. 28, 1943 4 Sheets-Sheet 3 INVENTOR ARTHUR C w//vn-Q A TORNEYS Tho@ M223 E Sept. 1l, 1945. A. c. WINTER CODE-CONTROLLED APPARATUS 4 Sheets-Sheet 4 Filed Dec. 28, 1945 cc I INVENTOR ARTHU C. W/'NTER gint A TOREYS Patented Sept. 11,` 1945 v coDscoN'raoLLan APPARATUS Arthur C. Winter, Teaneck, N. J., assignor'of onetenth to Henry J. Lucke, East Orange, N. J., and one-twentieth to Philip A. e Mallinckrodt, Salt 'Lake City, Utah Appucauun December 2a, 1943, serial No. 515,953

s claims. (ci. 11a-2s) This invention relates to code-controlled apparatus. and constitutes an improvement on the inventions illustrated and described in my copending application Serial No. 399,766, now U. S. Patent No. 2,338,692, dated January 4, 1944. and in my copending lapplication Serial No. 515,952, tiled on the same date as this present application, and similarly entitled Code-controlled apparatus."

The primary object of the present improvement is the elimination of a considerable quantity of equipment necessitated by the earlier forms of the invention, without detracting from vthe operative capacity and versatility and without reducv' ing the operative accuracy of the apparatus.

In this way, not only is the apparatus reduced in size and weight, but the initial cost and upkeep expenses are also considerably lessened.

Outstanding in the 'accomplishing of the above is the use of a single, modified translating unit in place of the plurality of sequentially arranged translating units Aof the prior embodiments, and the elimination from such modied translating unit of much of the equipment necessary in the prior embodiments.

The present invention is, in principle, very similar to those of the prior patent applications. However, instead of directly measuring the length of each short code-space following the reception of a code-signal, and comparing the measured short code-spaces with thel respective immediately preceding code-signals, the regulator is employed as a measure of the length of a short codespace. The respective measured code-signals are compared with it to produce respective resultant actions determinative of dot or of dash reactions.

If the apparatus is arranged to be regulated manually, an attendant must stand watch and reset the regulator every time improper results indicate a change in speed of code transmission with a consequent change in length of the short code-spaces. This is necessary because the regulator must at all times furnish an accurate measurement of the short type of code-spaces occurring between code-signals in the received code.

If the apparatus is arranged to be regulated automatically, a positive measurement of the ilrst short code-space occurring in any group of successive code-signals is recorded and retained as a reference value to which the regulator is adjusted for the next succeeding group of successive code-signals. Thus, the regulator always constitutes a positive measurement of that short codespace which occurs ilrst in the immediately preceding groupof successive code-signals.

The regulator is arbitrarily assigned a certain relative value (hereconsidered to be 2X). which represents a convenient relative time period (here considered to be one unit of time to accordwith the relative time-length of a short code-space in vthe Continental radiotelegraph code). and the measured code-signals are respectively compared.

with this regulator measurement value to determine whether they are long or short, respectively. relative thereto.

`The permutation or settable device o f the apparatus is supplied with sets oi' paired permutation elements, the number or pairs in a set correspending to the number of code-signals in the largest single group of successive code-signals which the apparatus willlie called upon to handle, all as in the prior inventive embodiments. Here, however, each pair of permutation elements in any set is adjusted or set by the single translating unit. This one translating unit serves, then. to variably adjust or set the entire permutation device in accordance with the various resultants produced by comparing received code-signals with the regulator.

Space-timing and release of the apparatus are accomplished much as in the prior inventive embodiments, the regulator providing the necessary standard reference value.

Further objects and features of the invention will be apparent in the following detailed description of the preferred forms illustrated in the accompanying drawings.

In the drawings, which specically illustrate preferred code-controlled apparatus for convert-` ing a radio-telegraph message in Continental code to typewritten English language by the use of electrical voltage and electronic equipment:

Fig. 1 is a wiring diagram representing the apparatus as arranged for manual control of the speed regulator;

Fig. 2, a top plan, diagrammatic view ofthe permutation part of the apparatus as illustrated in Fig. 1;

Fig. 3, a diagrammatic representation of the voltage relationship existing in the translating unit of Fig. lv when a dot is the signal translated;

Fig. 4, a diagrammatic representation similar to that of Fig. 3, but illustrating the voltage relationship when a dash is the signal translated;

Fig. 5, a wiring diagram illustrating apparatus which may be added to the apparatus of Fig. 1 for adjusting the speed regulatorv automatically; and

Fig. 6, a Wiring diagram illustrating an alternative form of permutation device for use with the other parts of Fig. 1.

The translating unit The translating unit of the apparatus comprises a condenser CC for receiving and storing current which, in quantity (that is, by the voltage exerted across the condenser), provides a measure of a received code-signal.

'I'he condenser CC is charged at a predetermined time-rate by the main power supply (labeled such), feeding through the diode CD, at such times as the arm |38a of double-keying relay |35 is in engagement with its code-signal or character Contact |36d, as differentiated from its code-space contact |360. the arm |36@ of the double-keying relay is in this position when the solenoid |38! of the doublekeying relay is energlzed, the latter occurring when the code-receiving relay |35 is energized by reason of the reception by the apparatus of a code-signal. Thus, it can be seen that every time a code-signal is received by the apparatus, the condenser CC of the single translating unit is charged accordingly.

A triode CRV is provided in the translating unit for comparing respective voltages across the condenser CC with the regulator voltage. Such triode has filament, grid, and plate circuits, a sensitive relay 600 being disposed in the plate circuit and serving as the means responsive to the resultant of the comparing action. The sensitive relay S is normally held open by a spring 600e., but a battery 600B stands ready with power to close it when favorable conditions within the triode permit current to now in the plate circuit. The positive side of the condenser CC is electrically connected to the grid of the triode through grid battery 60|.

Regulator voltage is provided from the main power supply through a rheostat 405 when the apparatus is arranged for manual regulation. The rheostat is adjusted manually from time to time during operation of the apparatus to accord with changes in speed of code transmission.

The rheostat 406 is electrically connected with the filament circuit of the triode CRV, impressing regulator voltage thereon. -It Will'be remembered thai; the positive side of the condenser CC is electrically connected to the grid of the triode, impressing code-signal measurement voltage thereon when the condenser is charged. The grid of the triode is normally negatively biased, by the grid-battery 60|, to such an extent that no effective current ows in the plate circuit It will be noted that` designated 42 I.

when the code-signal measurement voltage (or, A

for short, character voltage) is equal to the regulator voltage, although the sensitive relay 600 is placed in critical condition tending to close at the slightest increase in flow (e'ective ilow) of plate current due to a lessening of the grid bias. This occurs when the character voltage becomes greater than the regulator voltage.

The diode CD is set, in this instance, to charge the condenser CC atithe rate of X volts in one unit of time. This is accomplished by properly adjusting the variable resistance 40| in the filament circuit of the diode. Thus, for a dot signal, one unit of time in length, the vcharacter voltage value would be X volts, While the regulator voltage value is 2X volts. This means that the grid bias of the triode CRV would be relatively greater than normal, and that no eiective plate current would ilow in the plate circuit thereof. 'I'he relay 600 would remain open. But, for a dash Permutation device Permutation is accomplished by a device struc.

turally similar to that set forth in my aforereferred to copending patent application Serial No. 515,952. Functionally, however, there is an important difference.

Of any one of the several paired switches 420 and 42| making up each serially related set thereof only one switch is controlled by the translating unit. As here shown, that switch is the one The switches 42| of any set are normally held closed, relative to their respective contacts 42|c, by means of their respective springs 42|-|. They are opened relative to these contacts and closed relative to their respective contacts 42|b whenever the respective master relay coils |PR2, 2PR2, 3PR2, and 4PR2 are energized. Energization of a particular one of these master relay coils occurs whenever sensitive relay 600, associated with the triode CRV, is closed by reason of the triode registering a dash for any received code-signal.

The particular master relay'coils are selected in accordance with the incoming code by means of an electrical distributor arrangement embodying a step-switch identical with that designated |31 in the prior inventive embodiment. Accordingly, this step-switch is here, also, designated |31.

The step-switch |31 has four contactpoints l', 2, 3, 4, arranged to be engaged successively by the contact nger |31h. The successive contact points 1, 2, 3, and 4 are electrically connected, respectively, with the successive master relay coils |PR2, 2PR2, 3PR2, and 4PR2. The contact finger |31h rests on the #l contact point during the reception of the first code-signal in any group of successive code-signals. As the successive code-signals of the group occur, coil |311 of the step-switch |31 is energized, placing the switch-arm |31a in position to advance the step-switch successively by one step, through the action of spring |31g, when the successive code-spaces of the group are received. Thus, the translating unit is connected successively with each of the paired switch units of the permutation device, from the first on down the line, during the reception of any group of successive code-signals.

The switches 420 of any set are controlled independently of the translating unit. They are actuated, that is, opened relative to their respective contacts 420e, against which they are normally held by respective springs 42|l-|, and closed relative to their respective contacts 42017, whenever respectively corresponding code-signals are received by the apparatus. They are so actuated merely because of the fact that respectively corresponding code-signals are received by the apparatus, irrespective of any operation of the translating unit. They thereby merely indicate that respectively corresponding code-signals have been received, and thus provide for no-signal indications by such, if any, of the paired switch corresponding code-signals have been received.-

For the above purpose, an auxiliary distributor is provided. It comprises a step-switch HTH, auxiliary to the main step-switch |31 and advantageously made part thereof, being mechanically connected thereto, so as to be actuated simultaneously therewith, but being electrically insulated therefrom. The #l contact is a blank, and is not connected to any circuit. The #2 contact is electrically connected to the master respective master relay coils 2H, 3H, and. 4H.'l

whenever a code-signal is received by the apparatus.

It should he noted that both the set cf master relay coiis 2PR2, 3F32, and imi, and the set of master relay coils 2H, 3H, and 4H are arranged in sach manner that they remain, mag neticcd following initial energization, so that the permutation device registers the received code until the ultimate action or end result oc curs (here the typing out of a letter correspond ing to the group of successive code-signals, or,

for the letters E and fit to the single codesignal.

For the purpose, a holding circuit is provided. It is labeled as such in Fig. l, and is illustrated just below the letter circuits. The paired switch units 60d and it of this holding circuitcorre spond to the paired switch units 420 and 425. They are mechanically connected therewith but electrically' insulated therefrom. They are controlled by the same master relay coils IPR2,

2H and ZPR, and 3PR2, and 6H and PRZ..

respectively. They are wired as illustrated, so that when their respective switch-arms Silla and 605g, are closed relative to their contacts 6041 and 605D, respectively, the respective master relay coils are locked in energized condition and do not .become cie-energized until the holding circuit is positively broken at relay 606.

There is only one holding circuit in the permutation deyice, but there are as many letter or other symbol circuits as there are letters or other symbols which it is desired the apparatus be capable of printing. A

Each set or' paired switch units making up a letter circuit is wired tocorrespond to the code representing a particular letter or other symbol. In Fig. 1 is illustratedthat set of paired switch units or letter circuit which is Wired to correspond to the group of successive code signalsdot dash dot -representing the letter R. Printing device As fully explained in the afore-mentioned copending patent application Serial No. 515,952, each setr of paired switch units is insulated from the others by electrical insulating material 422, Fig. 2, and, when properly set by corresponding received code-signals, provides a closed electrical circuit from the main power supply to the solenoid associated with the particular` key concerned in the printing device.

` made The printing device is advantageously a typewriter of standard make having solenoids arranged to actuate the respective keys thereof. Only thekey for the letter "R is here illustrated, because the apparatus is 4shown as having Just received the group of successive code-signals .which represent the letter WR. This key is arranged to be actuated by the solenoid l! i.

Space-timina Spacing ci letters from other letters, and words from other words, is accomplished by the present apparatus in the same manner as set forth in the aforementioned copending patent application Serial No. 515,952. For the sake of convenience, however, minor changes have been in the circuit arrangements. These changes aremerely alternative. Such changes may cr may. not be incorporated in the circuits in either instance. l

As here illustrated, a letter condenser LC is arranged to be charged from the main power supniy lwhenever double-keying relay itt closes relative toits space contact l36c. Charging is accomplished through the diode electronic tune Lliat a rate predetermined bythe setting of the variable resistance 435i, associated with the fila-v ment circuit of the diode. A holding relay Mii is provided icrthe purpose of closing the noi rnc-.ily operi circuit from the power .supply to the lette diode LD upon the reception of the first nal following any release and resetting apparatus. The circuit is normally mainn tainfg open to guard against the feed of current 'te tl etter condenser LC during such times as l iparatns is idle but ready and waiting tc .c code.

She above corresponds exactly with what is set forth in my `copending patent application Serial No. 515,952.

i triode electronic tube-LV has its grid cir cuit lrather than its filament circuit) electrically connected to the positive side of the letter con- LC. The grid is normally biased negatively hy a grid-battery'LG, but not suillciently to prevent effectiveA ow of current .in the plate circuit of the triode when the regulator voltage and the voltage across letter condenser LC are approximately equal. A sensitive relay 40S, which is in reality a triple-switch, is disposed inv the plate circuit of the triode, and the filament 4circuit of the triode is electrically connected with the rhecstat Mit, that is, with the source of supply of regulator voltage.

Since the regulator voltage ordinarily increases the total negative biasing effect (regulator voltn age added to grid-battery LG voltage) no cur rent ordinarily flows in the plate circuit of the triode. Relay coil LR of the triple-switch 40S is unenergized, and switch arms wila and 40% rest against the stops 409g and 409k, respectively, by action of their springs 409a-l and 49b-i, respectively (rather than because relay coil LR is energized as in the prior case), while relay arm 409C is held against its contact 409i, by action of its spring 19o- L When the letter condenser LC is charged to an extent such that its voltage approaches the regulator voltage in value, the restrictive eiect of the regulator'voltage is overcome, and current flows in the plate circuit of the triode. Relay coil LR is thereby energized, .and switch-arms llla, 4091), and 9c are closedfrelative to their slightly in advance of the lother two switch arms,

so printing will occur slightly before release. Accordingly, printing of the letter registered by the permutation device takes place, as does also release and resetting of the apparatus, when arranged for automatic regulation, all as explained in the aforementioned copending patent application Serial No. 515,952.

Release or discharge of the condenser CC of the translating unit and release or discharge of the letter condenser LC takes place as described hereinafter.

Word spacing is accomplished substantially as explained in the prior application. A word condenser WC is arranged to be charged by the main power supply. Charging is accomplished through a word diode electronic tube WD at a rate determined by the setting of the variable resistance 4|5, associated with the filament circuit of the diode.

A triode electronic tube WV relates the voltage across the word condenser WC to the reaulator voltage supplied by the variable resistance 406 in the same manner as does the triode LV for the voltage across the letter condenser. When such voltage across the word condenser approaches the regulator voltage in value, relay 451 is closed, thereby energizing solenoid 4|8 and actuating the space-bar SB of the typewriter.

Release The several condensers CC, LC, and WC of this embodiment are discharged by means of thyratrons CT, LT, and WT, respectively.

The grid of thyratron CT is electrically connected to the voltage divider G01, which, in turn, is electrically connected to the space contact |360 of double-keying relay |35. Accordingly, since condenser CC is electrically connected to thyratron CT, it is discharged every time double-keying relay |36 closes relative tc its space contact |360, that is, every time a code-signal is followed by a code-space.

^ The grid of thyratron LT and the grid of thyratron WT are electrically connected to the voltage divider 431, which, in turn, is electrically connected to the character contact |3611 of double-keying relay |38. Thus, since letter condenser LC is electrically connected to thyratron LT, and since word condenser WC is electrically connected to thyratron WT, they are discharged every time double-keying relay |36 closes relative to its character contact |36d, that is, every time a code-signal is received by the apparatus.

The foregoing is true for functioning within letter groups however when a word is printed the letter condenser LC becomes discharged through letter thyratron LT as a result of the closing of triple-switch 409 wherein arm 40911 closes with respect to contact 409d. This action removes that amount of grid bias to LT being furnished by battery 435.` Resistor 436 protects battery 435 from becoming short circuited. Word thyratron WT not being associated with grid battery 435 is unaffected by the closing of triple-switch 409 and the voltage across word condenser WCl continues to rise until it reaches the regulator voltage in magnitude. At that time plate current ows through the relay coil WR and causes relay switch arm 4|1a to close relative to its contact 4|1c. 'I'his action closes the circuit to solenoid 4|8 which holds space bar SB in its actuated position until the next character causes its release.

Release and resetting of step-switch |31 is accomplished by energization of the electro-magl net 43h whenever arm 409e of triple-switch 4l! closes relative to its constant 409]. The electromagnet 430 and its associated step-switch release mechanism is illustrated in Fig. 3 oi' my copending application Serial No. 515,952, and described therein. Electro-magnet 430 is connected to the main circuit of Fig. 1 at the two points indicated by the letter K.

In addition, relay 606, which is a release relay in the holding circuit, opens the circuit of the holding relays |PR2, 2H, etc., upon being energized. This action releases the holding relays and the permutation switch-arms all return to their normal positions.

Automatic regulation The apparatus is arrangedV for automatic regulation when the system of Fig. 5 is connected to the system of Fig. 1. This is accomplished by interconnecting the points J, L. M, N of the two systems, and by throwing the switches 440 and 44|.

The automatic system is structurally and functionally identical with that illustrated and described in my afore-referred-to copending application, Serial No. 515,952, and will not be described in detail here, except to say that the triple alternator (3D0-2) circuit is wired to the #l character contact of the step-switch S31- I in Fig. 5. This permits the regulator voltage and word regulator voltage to rise during the beginning of the first character. Since the regulator voltage rises at a faster rate than the character voltage, no diiiiculty is experienced such as premature locking of the switch-arm 60511 inthe dash position.

A somewhat different embodiment of the invention is illustrated in Fig. 6. The only changes made are in the permutation device of the apparatus.

This embodiment corresponds to that of Figs. 18, 19,20, and 2l of the afore-referred to copending application Serial No. 515,952. Similar added parts are identified by corresponding reference characters.

'I'he translating unit of this embodiment is identical withthat of the embodiment illustrated in Fig. 1 herein. It is equipped with a character condenser CC, a source of regulator voltage, and a triode CRV for comparing the character voltage corresponding to a received code-signal with the regulator voltage, which latter is a measure of a short code-space of the type occurring between code-signals in a group of successive code-signals. The sensitive relay 600 disposed in the plate circuit of the triode CRV is adapted to set the successive switch units of the permutation device according to whether a received code-signal is a dot or a dash.

The permutation device is here, as it is in Figs. 18, 19, 20 and 21 of the afore-referred-to copending application, made up of sets of sequentially aligned, single switch units. In this case. one of such sets is a holding circuit, while the remainder are letter or other symbol circuits.

Each single switch unit 560 (except the lirst) in the holding circuit has a switch-arm 56M arranged to engage an electrical contact 56012 at the outward limit of its throw-stroke through the action of the respective compound springs 55|, and to engage either one or the other of two electrical contacts 560C and 560d, within the limits of its throw-stroke, depending upon whether the triode CRV registers a dot or a dash. 'I'he first single switch unit 560 is arranged to normally engage an electrical contact 560e at the outward limit of its throw-stroke through the action of a return spring S60-I.

Likewise, each single switch unit 510 (except the first) in each letter or other symbol circuit has a switch-arm 510:1 arranged to engage an electrical contact 5101i at the outward limit of its throw-stroke, depending upon whether the triode CRV'registers a dot or a dash.

Each one of the groups of side-by-side mechanically connected, corresponding sets of switch units 560 and 510 is equipped with a master relay coil 552, which is energized or not depending upon whether the sensitive relay 600 of the translating unit is closed or open. Further each one of said groups of switch units, except the rst, is equipped with a second master relay coil 552A, as illustrated. The purpose of these second master relay coils 552A- is to move the respective switch units 580 and 510 from their nosignal positions to their dot positions whenever respective code-signals are received by the apparatus', regardless of whether such code-signals are dots or dashes.

In order to energize the proper one of these second master relay coils 552A upon the reception of a code-signal by the apparatus, an auxiliary step-switch 3l- 3 is provided. itismechanically connected to, but electricaliy insulated from, the main step-switch Hl, and is arranged to move `simu1taneously and correspondingly therewith.

The successive Contact points of auxiliary stepswitch l 31--3 are electrically connected to the second master relay coils 552A associated with the respective successive groups of permutation switches 560 and 510. The #l contact point is a blank for the reason that there is no second master relay coil associated with the first trans lating unit (there need vbe no rio-signal condition registered by the permutation device because, when the machine is operating, there will always be at least one code-signal received for registering a letter or other symbol).

ln the present instance, the contact finger IS7-3h of the auxiliary step-switch lill-3 is not made broad, as is the contact ringer I3'l-2h in the afore-referred-to copending application Serial No. 515,952, because the holding circuit accomplishes the purpose or such a broad contact iinger.

Each switch unit 560 and 510, except the first, in any set is provided with a compound spring arrangement 55I, having one component spring 55la which is relatively weaker than a second and shorter component spring 55|b. Such compound spring arrangement, is placed to act between the respective switch-arms 5601i and Sla and the master relay coils 552 and 552A, thereby opposing the actions of such master relay coils. It should be noted that a. master relay coil 552A is powerful enough, when energized, to close a holding switcharm Silla relative to its dot contact point 560e and a letter or other symbol switch-arm 510a relative to its dot contact point 510e, but is not powerful enough to overcome the resistance of the combined action of both springs 55lb and 55m. Thus, a switch-arm .56M is moved into engagement with its dot contact point 560e, and a switch-arm 510a is moved into engagement; with its doi'l contact point 510c, whenever a corresponding code-signal is received by the apparatus, unless that codesignal is a dash. If the latter is true, closing of relay 600 of the translating unit energizes the master relay coil 552, which is powerful enough to overcome the combined resistance of springs 55|b and 55m. This is required because, when the switch-arm 560g engages with the electrical contact 56nd and when the step-switch contact ringer ISL-3h no longer connects with master relay coil 552A, master relay coil 562 alone holds the switch-arm 5604 in its dashl position against the combined resistance of springs 55 la and 551D.

Release, of the apparatus, upon the printing of a letter or other symbol registered by the permutation device, is accomplished in the same man ner as hereinbefore set forth relative to the embodiment of Fig. 1.

With respect to the invention disclosed by this application, it should be noted that the regular voltage is set at a value of 2X volts, while the diode CD is set to charge the character condenser CC, in one unit of time, to a voltage value oi X volts. Thus, there is a comparison, in the CRV triode of the translating unit, of. X volts with 2X volts for a.V dot signal, and of 3X volts with 2X volts for a dash signal. It should be noted that, this Way, a wide margin of error in code transmission can take place without disturbing the ac curacy oi the apparatus.

Whereas this invention is here described with respect to preferred specific forms thereof, it should be understood that various changes in said specific forms and various other specific iorms may be made without departing from the generic spirit and scope oi the invention as set forth in the specification, drawings, and accompanying claims.

I claim: v

1. In code-controlled apparatuameans for establishing a regulator value representing the measure of a given type of codespace; means for measuring the time-length of a received codesignal at a rate which sets oil? the measured codew signal from the said regulator value even though the said given type oi code-space and the said measured code-signal are actually equal in length; means for comparing a measured code signal with said regulator value; and means responsive to the resultant of said comparison.

y 2. In code-controlled apparatus, a permutation device arranged to be variably set; a translating unit comprising means establishing a regulator value representing the measure of a given type of y code-space, means for measuring the timelength of a received code-signal at a rate which sets oi the measured code-signal from the said regulator value even though the saidgiven type of codespace and the said measured code-signai are actually equal in length, means for comparing a measured code-signal with said regulator value; means responsive to the resultant of said comparison; means for connecting the said responsive means of said translating unit to said permutation device; and selective means arranged to be selectively actuated in accordance with the various settings of said permutation device.

3.- In code-controlled apparatus, electrical means for establishing a regulator voltage representing the measure of a given `type of .codespace; an electrical condenser; a diode electronic tube arranged for charging the said condenser, during the reception of a code-signal by the apparatus, at a rate which builds up a charge across the condenser differing from the said regulator voltage even'though the said given type of codespace and the said measured code-signal are actually equal in length; a triode electronic tube for comparing respective charges across the said condenser, representative of respective received code-signals, with the said regulator voltage; and a sensitive relay connected inthe plate circuit of said triode so as to be actuated should the said comparison of voltages by the triode result in the iiow of current in the plate circuit thereof.

4. Code-controlled apparatus, including in combination code-receiving means; a translating unit comprising a condenser, a diode electronic tube for charging the condenser, a triode electronic tube having filament, grid, and plate circuits, and a sensitive relay disposed in the plate circuit of said triode; electrical means establishing a regulator voltage, said means being connected with the iilament circuit of said triode for feeding said regulator voltage thereinto; means connecting the positive side of said condenser to the grid of said triode so voltage from the charged condenser will feed into said grid; a permutation device having a plurality of electrical relays arranged to be variably set in accordance with the translated code, a power circuit controlled by said sensitive relay; means adapted to successively connect the said power circuit with successive relay units of said permutation device; and means for substantially instantaneously discharging said condenser.

5. In code-controlled apparatus, means for measuring each short code-space which occurs first in any group of successive code-signals received by the apparatus; means for holding the respective measurements made by said measuring means; means for establishing respective regulator values which are substantially equivalent to the respective measurements held by said holding means, for use during the respectively next subsequent groups of successive code-signals; means for measuring respective code-signals as they are received by the apparatus; means for comparing the respective code-signal measurements with the respective regulator values with which they are concerned; and means responsive to said comparing means.

6. In code-controlled apparatus, means for electrically measuring each short code-space which occurs first in any group of successive code-signals received by the apparatus; means for electrically holding the respective measurements made by said measuring means; means for establishing respective electrical regulator values which are substantially equivalent to the respective electrical measurements held by said holding means, for use during the respectively next subsequent groups of successive code-signals; means for electrically measuring respective code-'signals as they are received by the apparatus; means for electrically comparing the respective code-signal measurements with the respective regulator values with which they are concerned; and means responsive to said comparing means.

'7. In code-controlled apparatus, a single translating unit; regulator means providing standard regulator values which can be used as reference values in the remainder oi' the apparatus; a permutation device having a plurality of single switches arranged to be sequentially actuated by said single translating unit, each of said single switch elements except the first having three electrical contact points arranged to register, respectively, a no-signal condition, a received dot code-signal, and a received dash code-signal, and said single translating unit comprising means for comparing a received code-signal with the regulator value at any given time, and means responsive to said comparing means for properly setting the single switch element with which it is associated at that given time.

8. In code-controlled apparatus, means for receiving transmitted code-signals; electrical means controlled by the received code-signals for supplying individual charges of electricity which vary in accordance with the relative durations of the said received code-signals; adjustable means supplying a regulating charge of electricty: means for quantitatively comparing the respective individual charges with the said regulating charge; and result-producing means variably responsive to said charge-comparing means.

9. In code-controlled apparatus, means for receiving transmitted code-signals; electrical means controlled by the received code-signals for supplying individual charges of electricity which vary in accordance with the relative durations of the said received code-signals; adjustable means supplying a regulating charge of electricity; means for quantitatively comparing the respective individual charges with the said regulating charge; result-producing means variably responsive to said charge-comparing means; and means for automatically adjusting said regulating charge supplying means in accordance with variations in speed of code transmission.

ARTHUR C. WINTER. 

